RU2579361C1 - Cooling apparatus with fan - Google Patents

Abstract

FIELD: home appliances.

SUBSTANCE: refrigerating device comprises evaporator, fan, fan housing to develop air flow on evaporator. Housing has bearing insert for attachment of the fan housing on evaporator without vibration transfer. Fan housing comprises at least one first bearing journal and one second bearing journal. Bearing insert comprises at least one first receiving cavity for installation of first bearing journal to turn and one second receiving cavity for installation of second bearing journal. There is rotary locking element intended to fix second supporting journal in second receiving cavity. Method of mounting fan with fan housing in refrigerating unit involves introduction of first bearing journal of fan housing in first recess of support insert, turning second pin into second receiving recess support insert by turning fan housing around axis of specified first journal to support plug, and fixation of second bearing journal in second receiving cavity by means of locking member.

EFFECT: using this group of inventions allows simplifying installation and dismantling of fan in refrigerating device.

15 cl, 6 dwg

Description

Technical field

The present invention relates to a refrigeration apparatus.

State of the art

In many refrigeration units there is a fan vibration transmitted through the fan mounting elements, for example, to the evaporator of the refrigeration unit and subsequently released into the environment in the form of noise. This emitted noise is perceived as a hindrance.

At the same time, the market situation requires using all the opportunities to reduce the cost of production of refrigerating appliances. The fan should be easy to install, and the mounting system should be implemented in a cost-effective manner.

Since the fans contain moving parts, in particular an impeller subject to wear, it is advisable to provide for easy replacement of the fan. Thus, fans should be able to quickly and easily mount and disassemble.

In the context of globalized markets, refrigerators are increasingly transported over long distances, sometimes subjecting them to strong shocks. Thus, it is desirable that the fan be installed on the refrigeration apparatus without the possibility of loss, including during vibration of the refrigeration apparatus. Given that the auxiliary tools available in different markets vary widely, it is advisable to provide for the possibility of replacing the fan without special tools.

Disclosure of invention

Thus, an object of the present invention is to provide a refrigeration apparatus in which a fan can be mounted on a refrigeration apparatus, in particular an evaporator, in a technically simple, shock-resistant, inexpensive and vibration-free manner, and can also be easily dismantled.

This problem is solved by a refrigerating appliance with the features of independent claim 1. Other preferred embodiments are disclosed in the dependent claims.

According to a first aspect of the invention, the present invention relates to a refrigerating apparatus with an evaporator as well as a fan and a fan housing for creating an air flow on the evaporator and with a support insert for attaching the fan housing to the evaporator without transmitting vibration, the fan housing comprising at least one first a support pin and one second support pin, wherein the support insert comprises at least a first receiving recess for mounting the first support pin with the possibility of rotation in ond receiving recess for mounting the second bearing journal is rotatably provided with a rotary locking member for fixing the second bearing journal at the second receiving recess.

The fan includes, for example, an engine with an external rotor. In this case, the external rotor is an embodiment of an electric motor in which the fixed part (stator) of the motor is inside and surrounded by a movable part (rotor). Such a motor may be, for example, a squirrel-cage induction motor. In DC electric motors with electronic commutation, made according to the external rotor circuit, the rotor consists, for example, of several alternately oriented in the radial direction and arranged in the form of a ring of permanent magnets or the corresponding multipolar magnetized ring.

The refrigeration circuit of a refrigerator includes, for example, a compressor for compressing refrigerant vapor, a condenser installed downstream of the compressor and designed to condense refrigerant vapor, and an evaporator installed downstream of the condenser and in front of the compressor and designed to evaporate the liquefied refrigerant. The condenser, as well as the evaporator, performs the function of heat transfer between the incoming air and the fluid in the refrigeration circuit.

A refrigerating apparatus is understood, in particular, as a household refrigerating apparatus, that is, a refrigerating apparatus used for household purposes or for gastronomy, and serving, in particular, for storing food and / or drinks at certain temperatures, for example, a refrigerator, a freezer , combined refrigerator-freezer, chest freezer or wine cellar.

According to one embodiment, both the first and the second support journal are provided with annular shock absorbing elements, in particular annular rubber bushings, designed to eliminate vibration. This makes it possible to provide vibration isolation, in particular if the fan is mounted on the evaporator by means of a support insert. Vibration of the fan housing will not be transmitted to the evaporator or will only be transmitted to a lesser extent. The corresponding shock absorbing element may be resilient, for example, may be made of rubber. The corresponding shock-absorbing element allows the fan housing to rest on the evaporator, while preventing or reducing the transmission of vibration from the housing to the evaporator. As a result, acoustic emission due to sound waves caused by the transmission of vibration from the fan casing and emitted by the evaporator to the environment is prevented. As a result, the acoustic emission of the refrigeration apparatus is reduced.

According to one embodiment, the first support pin can be inserted into the first receiving recess and forms a pivot axis for mounting the fan casing with the possibility of rotation relative to the support insert. For installation with the possibility of rotation, a third support pin can be provided, which can be located at the same height as the first support pin, that is, along the axis of rotation. Thus, the fan casing is mounted rotatably on the first support pin.

According to one embodiment, the second support pin can be rotated into a second receiving recess. This can be realized, for example, by turning the fan casing on the aforementioned pivot axis.

According to one embodiment, the first receiving recess is formed by a longitudinal hole open from the edge side into which the first support pin can be inserted. This ensures reliable retention of the first support journal.

According to one embodiment, the fan casing comprises a third support pin and a fourth support pin, wherein the support insert comprises at least one third receiving recess for mounting a third supporting pin with a possibility of rotation and one fourth receiving recess for installing a fourth supporting pin, the first supporting pin and a third support pin are located on the side of the fan and opposite each other, and the second support pin and the fourth support pin are located on the fan casing an eye and opposite each other, and a locking element is provided for fixing the fourth support journal in the fourth receiving recess. The first and third support pins can be located above or below the second and fourth support pins.

According to one embodiment, the support pin is located laterally on the fan casing, the first, second, third and fourth receiving recesses being formed laterally on the support insert, in particular in the side walls of the support insert.

According to one embodiment, at least one retainer is provided on the support insert, in particular a retainer rod for securing the retainer element.

According to one embodiment, the locking element comprises at least one locking hook intended to engage with the locking fastening, in particular the locking rod, with the possibility of rotation. The locking element may comprise an additional locking hook located opposite the locking hook and engaging with yet another attachment. As a result, the locking element can be fixed to the fan housing on both sides.

According to one embodiment, the locking element comprises a mounting bracket mounted rotatably on the fan housing, the corresponding locking hooks being located on the mounting bracket. This makes fixing especially easy.

According to one embodiment, the second support pin and / or the fourth support pin can be fixed by the rotational movement of the mounting bracket around the supporting axis of the mounting bracket. In this case, the aforementioned locking hooks may engage with locking fasteners.

According to one embodiment, the fastening bracket can be connected in a detachable manner to the support insert using a locking connection, in particular a locking hook.

According to one embodiment, the fastening bracket is supported to pivot on both sides of the support insert, in particular by means of support pins, and in the locking position, in which the corresponding support pin is fixed in the corresponding second recess, at least partially surrounds the support insert. This allows the mounting bracket to rest on the support liner and additionally hold the fan housing.

According to one embodiment, the support liner is mounted on the evaporator or is formed by the evaporator trough.

In accordance with another aspect, the invention relates to a method for mounting a fan with a fan case in a refrigerator using a support insert for mounting the fan case without transmitting vibration, the fan case comprising at least one first support pin and one second support pin, the support the liner comprises at least a first receiving recess for mounting the first support journal with the possibility of rotation and a second receiving recess for installing the second supporting journal s with the possibility of rotation, and provides a rotary locking element, designed to fix the second support pin in the second receiving recess. The method involves introducing the first support pin of the fan housing into the first receiving recess of the support sleeve, rotating the second support pin into the second receiving groove of the support sleeve by rotating the fan body about the axis defined by the first support pin to the support sleeve and fixing the second support pin in the second receiving hole when using the locking element. The support pins of the fan casing are fixed in vertical and horizontal directions. By turning around the first support axis, the support pins of the fan casing are rotated during installation in the second receiving recess of the support casing, as a result of which the fan casing is horizontally relative to the support casing. Shock absorbing elements prevent direct contact between the support pins of the fan housing and the support shell.

Further steps in the installation process are directly related to the interaction of the fan housing with the support liner in accordance with the invention.

Brief Description of Drawings

Other preferred embodiments and aspects of the invention are disclosed in the dependent claims and in the description below, embodiments of the present invention. The invention is described in detail below on the basis of preferred embodiments with reference to the accompanying figures, which depict:

Figure 1: schematic illustration of a refrigerator fan with a closed mounting bracket in accordance with the first embodiment, rear view.

Figure 2: schematic illustration of a fan with an open mounting bracket in accordance with the first embodiment, side view.

Figure 3: schematic representation of the support liner of the evaporator of the refrigeration apparatus in accordance with the first embodiment.

Figure 4: schematic representation of an evaporator with a fan installed on it with an open mounting bracket in accordance with the first embodiment, side view.

Figure 5: schematic representation of an evaporator with a fan installed on it with a closed mounting bracket in accordance with the first embodiment, side view.

Figure 6: schematic illustration of a locking hook provided on a mounting bracket.

The implementation of the invention

The figure 1 schematically shows the fan 5 of the refrigeration apparatus 1 with the housing 11 of the fan. On the side of the fan housing 11, support trunnions are arranged for mounting the fan housing 11 in the recesses of the support liner 4. The first support trunnion 13 and the second support trunnion 14 are located opposite each other on the fan housing 11. Above the first and second support pin 13, 14 on the fan housing 11, a third support pin 21 and a fourth support pin 22 are located opposite each other. The support pins 13, 14, 21, 22 are intended for mounting the fan 5 on the support sleeve 4, which can be fixed on the evaporator (not shown in figure 1). On the supporting pins 13, 14, 21, 22, shock absorbing elements 17 are provided, blocking the transmission of vibration from the fan 5 to the supporting insert 4 and, thereby, the evaporator. The cushioning elements 17 in this embodiment can have a ring shape and can be worn on the support pins 13, 14, 21, 22. Thus, they serve as gaskets and shock absorbers for the support pins 13, 14, 21, 22 both in the axial and in radial directions.

For fixing the second and fourth support pins 21, 22, a locking element 30 is provided, comprising a fastening bracket 31 with fixing hooks 33. The fastening bracket 31 in figure 1 is shown in front. The fixing bracket 31 extends approximately in a semicircle along the supporting insert 4. On the fixing bracket 31, for fixing it, fixing hooks 35 are provided. At the ends of the fixing bracket 31, locking hooks 33 are provided which engage with the purpose of fixing the second and fourth supporting journal 21, 22 with corresponding locking fasteners, in particular locking rods.

The support pins 13, 14, 21, 22 of the fan housing 11 provide accurate positioning of the fan impeller 5 in axial and radial directions relative to the inlet located on the support liner 4. Thus, the vibration isolation on the fan housing 11 is indicated by two supporting axes, each of which contains opposite support pins 13, 14 and 21, 22. On each of the support pins 13, 14, 21, 22, for example, a shock-absorbing element 17 is worn, for example, having a ring shape. The shock absorbing element 17 is made, for example, of rubber. It extends, for example, radially around the corresponding support journal so as to avoid radial contact between the support journal 13, 14, 21, 22 and the evaporator. Thereby, the transmission of vibration from the fan 5 to the evaporator is prevented by means of support pins 13, 14, 21, 22.

To install the fan casing 11, the first and third support pin 13 and 14 of the fan casing 11 are inserted into the corresponding receiving recesses of the support insert, which can be made in the form of elongated holes. After that, the second and fourth support pin 21, 22 are inserted into the respective receiving recesses of the support sleeve 4, turning the fan housing 11 about the axis of rotation defined by the first support pin 13 to the support sleeve 4. After that, the second and fourth support pin 21, 22 are fixed in corresponding receiving recesses with the help of the locking element 30. In this case, the locking hooks 33 engage with the corresponding locking fasteners, which can be made in the form of locking rods.

The figure 2 shows a schematic side view of the fan 5 with the open mounting bracket 31. The mounting bracket 31, as shown in the figure, is deviated from the fan 5. In this embodiment, the rotation is carried out around the axis of rotation of the first support axle 13. In this figure 1 mounting the bracket 31 is rotated in the image plane inward or outward. Figure 2 on the left side of the fan 5 shows the seal 37, which serves to seal the fan 5 relative to the evaporator. The locking hooks 33 are provided laterally on the mounting bracket 31 and are used so that when the mounting bracket 31 is rotated, it engages with the support shell 4 in order to fix the fan 5.

In accordance with one of the options may be provided with an elastic element, elastically holding the mounting bracket 31 in a rotational position relative to the evaporator. This makes it possible to provide a predetermined fastening of the fan casing 11 by means of a fastening bracket 31. The fastening bracket 31 includes, for example, at least one locking hook 33 for fixing to the locking fastening provided on the evaporator. The locking fastening may be in the form of locking rods, for which the locking hook 33 can be hooked. Preferably, the locking hook 33 is made on the mounting bracket 31 so that the locking hook 33 is integrated with the mounting bracket 31.

The locking element 30 is preferably mounted on the support pins 21, 22 of the fan housing 11 rotatably. For example, a locking hook 33 is formed on each of the lateral ends of the locking element 30. When the locking element 30 is rotated around its supporting axis, the lateral locking hooks 33 engage in the locking rods of the supporting insert 4 provided for this purpose and can rest on them. This increases the stability of the connection of the housing 11 of the fan with the supporting insert 4.

According to a further embodiment, at least one locking hook 35 is located on the locking element 30 to provide a locking connection with the support liner 4 or the evaporator. The locking hook 35, for example, can be detached by manually releasing from the locking mechanism.

To fix the locking element 30, the locking hook 35, located on the locking element 30, is fixed in the fastening provided for this with the support liner 4 with an “audible click”. An audible click ensures that the user is aware of the fixation process. The geometric shape of the locking hook 35 is selected, for example, so that when compressing two opposing locking hooks 35, the locking joint can be opened, and when the closed locking joint is tensile, the locking hooks 35 are tensioned even more to secure.

According to a further embodiment, an elastic seal is provided between the fan casing 11 and the support insert 4. The seal is mounted on the fan casing 11, for example, with protection against falling out, and it is adjacent to the support insert 4 only as part of the sealing.

In order to install the fan housing 11 on the support insert 4 without a gap, it is possible, for example, to provide a seal assembly on the front peripheral edge of the fan housing, the geometry of which is chosen so that the stable seal support secures the fan housing to be secured without falling out, and the sealing lip abuts The support liner is flexible and practically effortless. In this way, air leakage and thereby loss of efficiency due to gaps and vibration due to incomplete or intermittent abutment of the fan casing to the support insert is prevented.

The figure 3 presents a side view of the support insert 4, which can be made in the form of a trough of the evaporator 3. The support insert 4 contains a first receiving recess 15 and a second receiving recess 23. The receiving recesses 15, 23 are designed to receive the support pins 13, 21. For fastenings on the fan 5 support pins 13, 21 of the fan 5 are introduced into the recesses 15, 23 so that they are fixed in them.

Figure 4 schematically shows an evaporator 3 with a fan 5 mounted on it with an open mounting bracket 31, side view. The situation is depicted in which only the first support pin 13 of the fan 5 is engaged with the corresponding first receiving recess 15 of the supporting insert 4. However, the second supporting pin 21 is still removed from the second recess 23 related thereto. The first receiving recess 15 is made in the form of an elongated holes, therefore, the inserted first support pin 13 can rest on the support insert 4 and holds the fan 5 from the bottom on the evaporator 3. At the same time, it remains possible to turn the fan 5 around the axis of rotation of the first support apfy 13.

When continuing to mount the fan 5 on the support insert 4 as a result of the rotation of the fan 5 around the axis of rotation of the first support pin 13, the second support pin 21 enters the second recess 23. As shown in figure 1, in figure 3, two recesses 15 and 23 are always located one after another or one above the other, which then includes the corresponding support pins 13, 21.

Figure 5 schematically shows an evaporator 3 with a fan 5 connected to it with a closed stop element 30, side view. The situation is depicted in which the second support pin 21 of the fan 5 also engages with the corresponding second receiving recess 23 of the fan 5. This arrangement occurs as a result of the further rotation of the fan 5 around the axis of the first support pin 13 on the support insert 4 to the evaporator 3. Moreover, the mounting bracket 31 is already closed and holds the evaporator 3 and fan 5 in position.

In addition, a locking hook 33 is provided on the fastening bracket 31, which may engage with the locking fastening 34 provided on the supporting liner 4. In this embodiment, the locking fastening is made in the form of a locking bar 34 protruding from the supporting liner 4. When turning the fan 5 around the first support journal 13, the locking hook 33 abuts against the locking rod and presses the fan 5 from the bottom to the evaporator 3. Due to the gear ratio of the lever, the fan 5 is pressed against the supporting insert 4. As a result ate by means of a sealant 37 is carried out particularly good seal between the evaporator 3 and the fan 5 with little effort.

Figure 6 schematically depicts a mounting bracket 31 with a locking hook 35. The locking hook 35 may engage with the evaporator 3 or the support shell 4 and prevents accidentally disconnecting the mounting bracket 31. To fix the mounting bracket 31 in the final position, the locking hook 35 located on the mounting bracket bracket 31, engages with provided for this mount on the support liner.

According to a further embodiment, the fan combines an electric motor with an external rotor and an integrated air duct. This design, in combination with the installation on the support liner 4 without gaps, provides high performance air supply, due to the absence of losses. In addition, the fan 5 with a built-in duct is installed without the possibility of transmitting vibration, as a result of which the emitted noise is minimized. Fan 5 is compact but safe and easy to install. As part of equipment maintenance, it can be easily removed and reliably installed in place.

LIST OF REFERENCE NUMBERS

1 refrigeration unit

3 evaporator

4 support liner

5 fan

11 fan case

13 first support pin

14 third support pin

15 first recess

17 shock absorbing element

21 second support pin

22 fourth pivot pin

23 second recess

30 locking element

31 mounting bracket

33 locking hook

34 mount

35 locking hook

37 seal

Claims (15)

1. A refrigeration unit with an evaporator (3), as well as a fan (5) and a fan case (11) to create an air flow on the evaporator (3), and with a support insert (4) for mounting the fan case (11) on the evaporator (3) ) without vibration transfer, characterized in that the fan casing (11) comprises at least one first support pin (13) and one second support pin (21), wherein the support insert (4) contains at least one first receiving recess ( 15) for installing the first support pin (13) with the possibility of rotation and one second receiving recess position (23) for installing the second support pin (21), while a rotary locking element (30) is provided for fixing the second support pin (21) in the second receiving recess (23). 2. The refrigeration apparatus according to claim 1, characterized in that the first support pin (13) and the second support pin (21) are equipped with annular shock absorbing elements (17), in particular ring rubber bushings designed to eliminate vibration. 3. The refrigeration apparatus according to claim 1, characterized in that the first support pin (13) is arranged to be inserted into the first receiving recess (15) and forms a rotation axis for mounting the fan housing (11) by rotation relative to the support insert (4). 4. The refrigeration apparatus according to claim 1, characterized in that it is possible to rotate the second support pin (21) into the second receiving recess (23). 5. Refrigeration apparatus according to claim 1, characterized in that the first receiving recess (15) is formed by a longitudinal hole open from the edge side into which the first support pin (13) can be inserted. 6. The refrigeration apparatus according to claim 1, characterized in that the fan housing (11) comprises a third support pin (14) and a fourth support pin (22), wherein the support insert (4) contains at least one third receiving recess for installation the third support pin (14) by rotation and one fourth receiving recess for installing the fourth support pin (22), the first support pin (13) and the third support pin (14) are located on the side and opposite of each other, and the second support pin (21) and the fourth support pin (22) are located on the side of the fan housing (11) and opposite one another, a locking element (30) is provided for fixing the fourth support pin (22) in the fourth receiving recess. 7. The refrigeration apparatus according to claim 6, characterized in that the support pins (13, 14, 21, 23) are located on the side of the fan housing (11), while the receiving recesses (15, 23) are made on the side of the support liner (4) , in particular in the side walls of the support insert (4). 8. The refrigeration apparatus according to claim 1, characterized in that at least one retainer (34) is provided on the support liner (4) for fixing the retainer element (30). 9. The refrigeration apparatus according to claim 8, characterized in that the locking element (30) comprises at least one locking hook (33) configured to engage with the locking fastening (34), in particular the locking rod, rotatably . 10. The refrigerator according to claim 8 or 9, characterized in that the locking element (30) comprises a mounting bracket (31) mounted on the fan housing (11) with a possibility of rotation, wherein the locking hook (33) is located on the mounting bracket (31 ) 11. The refrigeration apparatus according to claim 8 or 9, characterized in that it is possible to fix the second support pin (21) by rotating the mounting bracket (31) around the supporting axis of the mounting bracket (31). 12. The refrigeration apparatus according to claim 8 or 9, characterized in that the mounting bracket (31) is made with the possibility of connection with the support liner (4) in a detachable manner by means of a locking connection, in particular a locking hook. 13. The refrigeration apparatus according to claim 8 or 9, characterized in that the mounting bracket (31) is supported for rotation on both sides of the support insert (4), in particular by means of support pins (13, 14), and in the locking position, in wherein the corresponding support pin (13, 14) is fixed in the corresponding second recess, at least partially covers the support liner (4). 14. The refrigerator according to one of paragraphs. 1-9, characterized in that the supporting insert (4) is mounted on the evaporator or the supporting insert (4) is formed by the groove of the evaporator. 15. The method of mounting the fan (5) with the housing (11) of the fan in the refrigeration apparatus by means of a support insert (4) designed to fasten the housing (11) of the fan without transmitting vibration, and the housing (11) of the fan contains at least one first support pin (13) and one second support pin (21), wherein the support insert (4) comprises at least a first receiving recess (15) for mounting the first support pin (13) with rotation and a second receiving recess (23) for installing a second support trunnions (21), with a rotary stop element (30) for fixing the second support pin (21) in the second receiving recess (23), characterized in that the method comprises introducing the first support pin (13) of the fan housing (11) into the first receiving recess (15) of the support of the insert (4), turning the second support pin (21) into the second receiving recess (23) of the support insert (4) by turning the fan housing (11) around the axis defined by the first support pin (13), to the support insert (4), and fixing the second support pin (21) in the second receiving recess (23) with Nips of the locking element (30).

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